Evapotranspiration (ET) represents the loss of water from the Earth’s surface from the combination of direct evaporation and plant transpiration. ET is usually expressed as a rate such as inches per day. Knowledge of ET is important for irrigation scheduling but it is also an important factor for other land use applications such as septic tank drain fields, water shed water budgeting, and climate and weather models. ET can be used as a historical tool but usually it is predicted or used in a forecast to help irrigators optimize irrigation.

Factors Affecting ET

Current weather conditions and soil conditions are the primary factors affecting ET rates. The weather factors include wind speed, air temperature, relative humidity, and sun light. The affect weather has on ET rate is rather intuitive. Warm, sunny, and dry weather with a lot of wind will have greater ET rates. The ET rates between different plant species can vary greatly. For example, needle leaf trees such as pine trees will have a much greater ET than a deciduous tree such as an oak tree. Even though the pine needle can be very small, the needles have much more surface area than deciduous leaves allowing for more transpiration.

Soil chemistry is also a major factor affecting ET rates. At the molecular level, most clays will have a chemical affinity for water. Clay’s chemical affinity for water results from a planner geometry and the charge distribution at the molecular level. The chemical affinity for water is much less for sands and silts. The chemical interaction between the clay and the water impedes both the evaporation and the plant transpiration. The evaporation rate of a soil the is mostly sand on the other hand, will be close to what the evaporation rate would be out of a pan.

For example, if the soil moisture is 20% by volume, the ET rate in sand would be very high and very low in clay under the same weather conditions. On the other hand, if the soil moisture is 30% by volume, the sandy soil will dry out quicker than the clay rich soil and the clay rich soil will have a higher ET rate for a longer period of time.

Soil salinity will affect the plant transpiration. Plant transpiration is the movement of water from the roots and the subsequent loss of water vapor from the stomata in the leaves. The primary driving force of the movement of water from the roots to the leaves is osmoses. Osmoses is the diffusion or movement of water that is driven by a salt concentration gradient. Increasing soil salinity will decrease plant transpiration because the salt concentration gradient will diminish thus affecting the over all ET. In general ET rates increase toward the equator and will be higher in summer than in winter.

In areas where ET is greater than precipitation, there will be very little recharge to the aquifer and a net upward movement of water. This net upward movement of water followed by ET will cause salts and minerals to accumulate near the surface. This explains why soils in arid lands tend to have a high pH and a higher salinity.

Other factors that affect ET include elevation, longitude, latitude and time of year. Conversely, if precipitation is greater than ET, minerals and nutrients will be leached out of the soil, and there will be a shallow aquifer. Highly leached soils will develop more clay loam textured soils and will typically have a lower base saturation.

Related articles

The yield of stemflow from vegetation is mostly affected by rainfall and canopy structure, but few past studies have paid attention to the dynamics of canopy structure during the growth season. Artemisia ordosica is a typical subshrub, very different from trees and shrubs. Assessing the influence of canopy structure and rainfall on stemflow yield in A. ordosica during the growth season will fill a knowledge gap in our understanding of stemflow yield from subshrub species. This study therefore examined the effects...

Mick George Limited in the UK, spotted the need for a waste shredder that would be used on greenwaste, tree roots and stumps for composting and volume reduction for their waste facility at Rushton. "We also wanted the option of shredding tyres for drainage, waste for RDF, and wood products for Biomass", says Michael George, Operations Director.Impurities in waste wood, eg. metal bolts, nails or other non-crushable items can cause downtimes or even damage many shredders and grinders. The robust-built TANA Shark, a...

Particulates, inorganic and toxic constituents are the most common pollutants associated with urban stormwater runoff. Heavy metals such as chromium, nickel, copper, zinc, cadmium and lead are found to be in high concentration on paved roads or parking lots due to vehicle emissions. In order to control the rapid increase of pollutant loads in stormwater runoff, the Korean Ministry of Environment proposed the utilization of low impact developments. One of these was the application of tree box filters that act as a...

In mid-January 2012, a winter storm moving inland from the Pacific Ocean blanketed an 11-county area of Northwest Washington with several inches of heavy wet snow, followed by a thick layer of ice that coated everything from sidewalks to skyscrapers. Nicknamed “Snowmageddon,” by locals, the storm first walloped the Seattle and Tacoma metro areas, shattering a 60-plus-year record snowfall total at Sea-Tac International Airport, before fanning out to other parts of the state.
Widespread power outages...

Customer comments

No comments were found for Basics of evapotranspiration. Be the first to comment!